void rec() {
AliReconstruction reco;
reco.SetWriteESDfriend();
reco.SetWriteAlignmentData();
reco.SetRecoParam("ITS",AliITSRecoParam::GetLowFluxParam());
reco.SetRecoParam("TPC",AliTPCRecoParam::GetLowFluxParam());
reco.SetRecoParam("TRD",AliTRDrecoParam::GetLowFluxParam());
reco.SetRecoParam("PHOS",AliPHOSRecoParam::GetDefaultParameters());
reco.SetRecoParam("MUON",AliMUONRecoParam::GetLowFluxParam());
reco.SetRecoParam("EMCAL",AliEMCALRecParam::GetLowFluxParam());
reco.SetDefaultStorage("alien://Folder=/alice/simulation/2008/v4-15-Release/Ideal/?cacheFold=/tmp/CDBCache?operateDisconnected=kFALSE");
reco.SetSpecificStorage("GRP/GRP/Data",
Form("local://%s",gSystem->pwd()));
// add TRD standalone tracks
reco.SetOption("TRD", "sl_tr_1");
reco.SetRunGlobalQA(kTRUE);
TStopwatch timer;
timer.Start();
reco.Run();
timer.Stop();
timer.Print();
}
void rec() {
AliReconstruction reco;
reco.SetUniformFieldTracking(kFALSE);
reco.SetWriteESDfriend();
reco.SetWriteAlignmentData();
AliTPCRecoParam * tpcRecoParam = AliTPCRecoParam::GetLowFluxParam();
AliTPCReconstructor::SetRecoParam(tpcRecoParam);
AliTPCReconstructor::SetStreamLevel(1);
// reco.SetInput("raw.root");
reco.SetRunReconstruction("ITS TPC TRD TOF HMPID PHOS EMCAL MUON VZERO T0 FMD PMD ZDC");
reco.SetDefaultStorage("alien://Folder=/alice/simulation/2008/v4-12-Release/Ideal/");
reco.SetRunQA(kFALSE);
reco.SetRunGlobalQA(kFALSE);
TStopwatch timer;
timer.Start();
reco.Run();
timer.Stop();
timer.Print();
}
void rec() {
AliReconstruction reco;
reco.SetRunVertexFinder(kFALSE) ;
reco.SetRunV0Finder(kFALSE) ;
reco.SetRunMultFinder(kFALSE) ;
AliQAManager::QAManager(AliQAv1::kSIMMODE) ;
reco.SetCDBSnapshotMode("Sim/OCDBrec.root");
reco.SetRunReconstruction("PHOS") ;
reco.SetRunQA(":") ;
reco.SetRunGlobalQA(kFALSE) ;
TStopwatch timer;
timer.Start();
reco.Run();
timer.Stop();
timer.Print();
}
void recCPass0(const char *filename="raw.root",Int_t nevents=-1, const char *ocdb="raw://", const char* options="?Trigger=kCalibBarrel")
{
if (gSystem->Getenv("ALIROOT_FORCE_COREDUMP"))
{
printf("ALIROOT_FORCE_COREDUMP set\n");
gSystem->ResetSignal(kSigFloatingException);
gSystem->ResetSignal(kSigSegmentationViolation);
}
// addopt errors to account for calibration imprefection before cpass0
// 1) For TPC
Double_t tpcSystematicErrors[5]={1,1.5,1./100.,1./100.,0.1};
Double_t tpcSystematicErrorClusters[2]={1.5,1.5};
Double_t tpcExtendedRoads[2]={2.5,2.5};
Double_t tpcPrimDCACuts[2] = {10.,30.}; // Y,Z
TVectorD *vectpcSystematicErrors=new TVectorD(5, tpcSystematicErrors);
TVectorD *vectpcSystematicErrorClusters=new TVectorD(2, tpcSystematicErrorClusters);
TVectorD *vectpcExtendedRoads= new TVectorD(2, tpcExtendedRoads);
TVectorD *vectpcPrimDCACuts = new TVectorD(2, tpcPrimDCACuts);
const double kZOutSectorCut = 3.; // cut on clusters on wrong side of CE (added to extendedRoadZ)
const double kPrimaryZ2XCut = 1.2; // cut on clusters Z/X (large eta)
AliTPCReconstructor::SetSystematicError(vectpcSystematicErrors);
AliTPCReconstructor::SetSystematicErrorCluster(vectpcSystematicErrorClusters);
AliTPCReconstructor::SetExtendedRoads(vectpcExtendedRoads);
AliTPCReconstructor::SetPrimaryDCACut(vectpcPrimDCACuts);
AliTPCReconstructor::SetZOutSectorCut(kZOutSectorCut);
AliTPCReconstructor::SetPrimaryZ2XCut(kPrimaryZ2XCut);
//
if (gSystem->Getenv("streamLevel")){
SetStreamLevel( AliTPCtracker::kStreamErrParam| AliTPCtracker::kStreamTransform);
}
// 2) For ITS
AliITSReconstructor::SetCheckInvariant(kFALSE); // no invariant check with extended TPC errors
// 3) For TOF
// extra tolerance on top of default from recoparam
AliTOFReconstructor::SetExtraTolerance(5.0);
// 4) For TRD
AliTRDReconstructor::SetExtraMaxClPerLayer(3); // to allow >6 cluster candidates per layer
AliTRDReconstructor::SetExtraBoundaryTolerance(3); // relax boundary check
AliTRDReconstructor::SetExtraRoadY(4); // extra road in Y
AliTRDReconstructor::SetExtraRoadZ(6); // extra road in Z
AliTRDReconstructor::SetExtraChi2Out(25); // extra chi2 tolerance on backpropagation
//
// Load some system libs for Grid and monitoring
// Set the CDB storage location
AliCDBManager * man = AliCDBManager::Instance();
man->SetDefaultStorage(ocdb);
// Reconstruction settings
AliReconstruction rec;
//
// do we extract the TPC recpoints in advance
Int_t preclustTPC = TString(gSystem->Getenv("preclusterizeTPC")).Atoi();
Bool_t noTPCLocalRec = preclustTPC==1;
if (noTPCLocalRec) printf("preclustTPC = %d: TPC local reconstruction assumed to be already done\n", preclustTPC);
else printf("preclustTPC = %d: TPC local reconstruction assumed to NOT be already done\n", preclustTPC);
//
if (gSystem->Getenv("disableOuter")!=NULL){
TString disOuter = gSystem->Getenv("disableOuter");
TString disOuterLoc = disOuter;
if (noTPCLocalRec) {
disOuterLoc.ReplaceAll("TPC","");
disOuterLoc.ReplaceAll("HLT","");
}
rec.SetRunReconstruction(disOuter.Data());
rec.SetRunLocalReconstruction(disOuterLoc.Data());
}
else if (noTPCLocalRec) {
rec.SetRunReconstruction("ALL -HLT");
rec.SetRunLocalReconstruction("ALL -TPC -HLT");
}
else {
rec.SetRunLocalReconstruction("ALL");
}
// Upload CDB entries from the snapshot (local root file) if snapshot exist
if (gSystem->AccessPathName("OCDB.root", kFileExists)==0) {
rec.SetDefaultStorage("local://");
rec.SetCDBSnapshotMode("OCDB.root");
}
else {
// setup ocdb by custom (if any) or default settings
if (gSystem->AccessPathName("localOCDBaccessConfig.C", kFileExists)==0) {
gROOT->LoadMacro("localOCDBaccessConfig.C");
localOCDBaccessConfig();
}else { // default settings
AliCDBManager* man = AliCDBManager::Instance();
man->SetRaw(kTRUE);
}
TString cdbMode = gSystem->Getenv("OCDB_SNAPSHOT_CREATE");
if (cdbMode == "kTRUE") {
gROOT->LoadMacro("$ALIDPG_ROOT/MC/CreateSnapshot.C");
CreateSnapshot("OCDB.root",filename);
return;
}
}
// All friends
rec.SetFractionFriends(2.0);
// AliReconstruction settings - hardwired MB trigger for calibration
TString newfilename = filename;
newfilename += options;
rec.SetInput(newfilename.Data());
// Set protection against too many events in a chunk (should not happen)
if (nevents>0) rec.SetEventRange(0,nevents);
// Remove recpoints after each event
TString delRecPoints="TPC TRD ITS";
if (noTPCLocalRec) delRecPoints.ReplaceAll("TPC","");
rec.SetDeleteRecPoints(delRecPoints.Data());
//
// Switch off the V0 finder - saves time!
// rec.SetRunMultFinder(kFALSE);
rec.SetRunV0Finder(kFALSE);
//
// QA options - all QA is off
//
rec.SetRunQA(":");
rec.SetRunGlobalQA(kFALSE);
// AliReconstruction settings
rec.SetWriteESDfriend(kTRUE);
rec.SetWriteAlignmentData();
rec.SetUseTrackingErrorsForAlignment("ITS");
rec.SetCleanESD(kFALSE);
// ITS options (see ALIROOT-7179)
float itsErrY2[6]={0., 0., 0.1*0.1, 0.1*.1, 0.,0.};
TVectorF *vecITSErrY2 = new TVectorF(6, itsErrY2);
AliITSReconstructor::SetExtraErrorY2(vecITSErrY2);
//Ignore SetStopOnError
rec.SetStopOnError(kFALSE);
AliLog::Flush();
rec.Run();
}
/**
* @file cal-hlt-tpc-offline.C
* @brief Test macro for the HLT TPC offline calibration.
*
* The macro runs an HLT chain of TPC analysis, using the offline
* algorithms and appropriate wrappers. The final output is
* processed by the TPCOfflineCalibration component.
*
* Usage:
* <pre>
* aliroot -b -q cal-hlt-tpc-offline.C | tee cal-hlt-tpc-offline.log
* </pre>
*
* The chain to be run is defined by the macro given to the parameter
* 'config='
*
* The macro asumes raw data to be available in the rawx folders, either
* simulated or real data. A different input can be specified as parameter
* <pre>
* aliroot -b -q cal-hlt-tpc-offline.C'("input.root")'
* </pre>
*
* In the first section, an analysis chain is defined. The scale of the
* chain can be defined by choosing the range of sectors and partitions.
*
* The reconstruction is steered by the AliReconstruction object in the
* usual way.
*
* @ingroup alihlt_tpc
* @author Jacek Otwinowski <*****@*****.**>, [email protected]
*/
void cal_hlt_tpc_offline(const char* input="./")
{
if (!input) {
cerr << "please specify input or run without arguments" << endl;
return;
}
///////////////////////////////////////////////////////////////////////////////////////////////////
//
// init the HLT system in order to define the analysis chain below
//
AliHLTSystem* gHLT=AliHLTPluginBase::GetInstance();
//gHLT.SwitchAliLog(0);
///////////////////////////////////////////////////////////////////////////////////////////////////
//
// define the analysis chain to be run
//
bool sectorClusterer=true; // run clusterer on sector or DDL level
// check if the AliRawReaderMemory supports multiple buffers
TClass* info=TClass::GetClass("AliRawReaderMemory");
TList* methods=info->GetListOfAllPublicMethods();
if (sectorClusterer && !methods->FindObject("AddBuffer")) {
cerr << "warning: AliRawReaderMemory does not support multiple buffers, falling back to run clusterer on DDL level" << endl;
sectorClusterer=false;
}
int iMinSlice=0;
int iMaxSlice=35;
int iMinPart=0;
int iMaxPart=5;
int DDLNoFromSlicePatch(int, int);
TString writerInput;
TString trackerInput;
TString calibratorInput;
for (int slice=iMinSlice; slice<=iMaxSlice; slice++) {
TString arg, clustererInput;
for (int part=iMinPart; part<=iMaxPart; part++) {
TString publisher, cf;
// raw data publisher components
int ddlno=DDLNoFromSlicePatch(slice, part);
arg.Form("-minid %d -datatype 'DDL_RAW ' 'TPC ' -dataspec 0x%02x%02x%02x%02x -verbose", ddlno, slice, slice, part, part);
publisher.Form("DP_%02d_%d", slice, part);
AliHLTConfiguration pubconf(publisher.Data(), "AliRawReaderPublisher", NULL , arg.Data());
if (!sectorClusterer) {
// cluster finder components
cf.Form("CF_%02d_%d", slice, part);
AliHLTConfiguration cfconf(cf.Data(), "TPCOfflineClusterer", publisher.Data(), "");
if (trackerInput.Length()>0) trackerInput+=" ";
trackerInput+=cf;
//if (writerInput.Length()>0) writerInput+=" ";
//writerInput+=cf;
} else {
if (clustererInput.Length()>0) clustererInput+=" ";
clustererInput+=publisher;
}
}
if (sectorClusterer) {
// cluster finder components
cf.Form("CF_%02d", slice);
AliHLTConfiguration cfconf(cf.Data(), "TPCOfflineClusterer", clustererInput.Data(), "");
if (trackerInput.Length()>0) trackerInput+=" ";
trackerInput+=cf;
}
}
// one global tracker component
TString tracker;
tracker.Form("Global_TR");
AliHLTConfiguration trackerconf(tracker.Data(), "TPCOfflineTrackerCalib", trackerInput.Data(), "");
if (writerInput.Length()>0) writerInput+=" ";
calibratorInput+=tracker;
// one global calibration component
TString calibrator;
calibrator.Form("Global_Calib");
AliHLTConfiguration calibconf(calibrator.Data(), "TPCOfflineCalibration", calibratorInput.Data(), "");
if (writerInput.Length()>0) writerInput+=" ";
writerInput+=calibrator;
// the writer configuration
AliHLTConfiguration rootfwconf("sink1", "ROOTFileWriter", writerInput.Data(), "-specfmt=_%d -subdir=out_%d -idfmt=_0x%08x");
//AliHLTConfiguration esdwconf("sink1", "EsdCollector" , writerInput.Data(), "-directory hlt-tpc-offline");
///////////////////////////////////////////////////////////////////////////////////////////////////
//
// Init and run the reconstruction
// All but HLT reconstructio is switched off
//
AliReconstruction rec;
rec.SetInput(input);
rec.SetRunVertexFinder(kFALSE);
rec.SetRunLocalReconstruction("HLT");
rec.SetRunTracking("");
rec.SetLoadAlignFromCDB(0);
rec.SetFillESD("");
rec.SetRunQA(":");
rec.SetRunGlobalQA(kFALSE);
rec.SetFillTriggerESD(kFALSE);
rec.SetOption("HLT", "libAliHLTUtil.so libAliHLTRCU.so libANALYSIS.so libANALYSISalice.so libTPCcalib.so libAliHLTTPC.so loglevel=0x7c chains=sink1");
rec.Run();
}
void main_recCPass1_OuterDet(const char *filename="raw.root",Int_t nevents=-1, const char *ocdb="raw://", Bool_t useFullITS=kFALSE)
{
// Load some system libs for Grid and monitoring
// Set the CDB storage location
AliCDBManager * man = AliCDBManager::Instance();
man->SetDefaultStorage(ocdb);
// Reconstruction settings
AliReconstruction rec;
// Upload CDB entries from the snapshot (local root file) if snapshot exist
if (gSystem->AccessPathName("OCDB.root", kFileExists)==0) {
man->SetDefaultStorage("local://");
man->SetRaw(kFALSE);
man->SetSnapshotMode("OCDB.root");
}
if (gSystem->AccessPathName("localOCDBaccessConfig.C", kFileExists)==0) {
gInterpreter->ProcessLine("localOCDBaccessConfig();");
}
if(!useFullITS){
// only SPD-trackletting will be done
printf("Special ITS configuration: only SPD-trackletting will be done\n");
rec.SetRecoParam("ITS",GetSpecialITSRecoParam());
}
// All friends
rec.SetFractionFriends(1.0);
// AliReconstruction settings - hardwired MB trigger for calibration
TString newfilename = filename;
newfilename += "?Trigger=kCalibOuter";
rec.SetInput(newfilename.Data());
// Set protection against too many events in a chunk (should not happen)
if (nevents>0) rec.SetEventRange(0,nevents);
// Remove recpoints after each event
rec.SetDeleteRecPoints("ITS MUON EMCAL PHOS VZERO T0");
// Switch off the V0 finder - saves time!
rec.SetRunV0Finder(kFALSE);
//
// QA options - all QA is off
//
rec.SetRunQA(":");
rec.SetRunGlobalQA(kFALSE);
// AliReconstruction settings
rec.SetWriteESDfriend(kFALSE);
if(!useFullITS) rec.SetWriteAlignmentData(kFALSE);
else rec.SetWriteAlignmentData();
rec.SetUseTrackingErrorsForAlignment("ITS");
rec.SetRunReconstruction("ITS MUON EMCAL PHOS VZERO T0");
rec.SetFillESD("ITS MUON EMCAL PHOS VZERO T0");
rec.SetCleanESD(kFALSE);
// Specific reco params for ZDC (why isn't this automatic?)
// rec.SetRecoParam("ZDC",AliZDCRecoParamPbPb::GetHighFluxParam(2760));
//Ignore SetStopOnError
rec.SetStopOnError(kFALSE);
AliLog::Flush();
rec.Run();
}
